JP2010043388A - Sheet for clothing - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sheet for clothing which is capable of simply generating a lot of anions and easily being mounted at various places of clothing. <P>SOLUTION: The sheet for clothing is such as a woven cloth having low water absorption and a urethane foam sheet, and an anion generating film 2 in which an anion ceramic powder is mixed in a silicon ink for thick film printing adheres on the surface of the sheet material for clothing so as to be upheaved by 0.1 to 0.3 mm film thickness from the surface. The anion generating film 2 generates minus ions at 2,000 anions/cc or more. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  TECHNICAL FIELD The present invention relates to a clothing sheet having a negative ion generating film, and relates to a clothing sheet that emits 2000 ions / cc or more of negative ions toward the body when worn on an underwear or the like.

  As interest in health maintenance increases, the effect of negative ions has attracted attention, and negative ions are generated in various areas such as clothing, hair dryers, air conditioners, etc., and individual results have been achieved.

  In this background, the present applicant proposes an undergarment that generates negative ions and far-infrared rays according to Japanese Patent Application Laid-Open No. 2006-265784 (Patent Document 1) and is put to practical use.

  The undergarment disclosed in Patent Document 1 generates a far-infrared ray generation film configured by arranging a plurality of small piece membranes separated from each other in a predetermined range at a predetermined position of an undergarment made of fibers, and generates negative ions. A negative ion generation group in which a plurality of negative ion generators whose main component is silicon is arranged is provided on the inner surface of the undergarment. At the same time as the far infrared ray, negative ions are emitted from the far infrared ray generation film, and the body is warmed moderately to improve heat retention. Sweat released from the skin of the body is released from between the small pieces of the infrared ray generation film. Is done. Further, the negative ion generation group stimulates the pot of the human body by the protrusion and generates negative ions to the pot.

JP 2006-265784 A

The negative ion generating material disclosed in Patent Document 1 generates about 50 ions / cc of negative ions from silicon as a main component. Even if this amount is generated, it is comparable to a forest bath that is beneficial to the human body, and it works by acting on blood ions in the body to some extent to negatively ionize blood etc. It is said that there is an effect. However, subsequent follow-up studies have shown that it is not sufficient to increase the effect of improving physical malformations. In addition, since the amount of negative ions generated is small, the negative ion generator is brought into contact with the skin of the body, so that some of the users may get itchy due to stuffiness, and in some cases There were cases of rash symptoms.
The problem to be solved by the present invention is to provide a clothing sheet that can easily generate a large amount of negative ions and can be easily attached to various places of clothing.

  Accordingly, the clothing sheet according to claim 1 of the present invention is a clothing sheet such as a woven fabric or a urethane foam board having a low water absorption, and a negative ion ceramic powder is thickened on the surface of the clothing sheet material. The negative ion generation film mixed in the silicon ink for film printing is fixed so as to protrude from the surface with a film thickness of 0.1 mm to 0.3 mm.

  Further, the clothing sheet according to claim 2 comprises the negative ion generating film according to claim 1 in which a plurality of small piece films are separated from each other and arranged in a predetermined range.

  The clothing sheet according to claim 3 of the present invention is the clothing sheet according to claim 1 or 2, wherein the clothing sheet is embedded in a pocket formed facing the body skin such as underwear, and a negative ion generating film. A cloth such as underwear is interposed between the skin of the body.

  Furthermore, in the clothing sheet according to claim 4 of the present invention, the negative ion generating film in claims 1 and 2 generates 2000 negative ions / cc or more.

  According to the present invention, negative ion generation is achieved by using a clothing sheet material with low water absorption and fixing a negative ion generating film on the surface so as to protrude from the surface to a thickness of 0.1 mm to 0.3 mm. Since the volume of the film can be increased, the amount of negative ions generated from the negative ion ceramic powder can be greatly increased. Further, since the negative ion generating film is raised from the surface of the clothing sheet material, negative ions can be released also from the side surface of the negative ion generating film, and the amount of negative ions generated can be further increased.

  In addition, by arranging a plurality of small piece membranes in a predetermined range by separating a plurality of small piece membranes from each other, water vapor released from the skin can be passed through between the small piece membranes, and stuffiness is suppressed. Therefore, it becomes possible to prevent the occurrence of itching and rash. Furthermore, the amount of negative ions generated can be arbitrarily adjusted by setting the area of the small piece film and the interval between the adjacent small piece films to an appropriate size.

  In addition, the clothing sheet is placed in a pocket formed facing the skin of the body, such as underwear, and a cloth such as underwear is interposed between the negative ion generating film and the skin of the body, thereby allowing negative ions. Since the generated film does not directly contact the skin, it is possible to prevent the occurrence of itchiness, rash, or damage to the skin due to sliding.

  Furthermore, a negative ion generating film having a thickness of 0.1 mm to 0.3 mm is raised and fixedly formed on the clothing sheet, whereby 2000 ions / cc or more of negative ions can be generated. Incidentally, in the case of a forest bath that is said to have a relaxation effect by receiving negative ions and have various healing effects, it is published as about 200 / cc, but from the negative ion generating membrane according to the present invention, about 10 Since negative ions equivalent to double are generated and a negative potential effect is given to the human body, it is possible to exert an effect on improvement of a malfunctioning part of the body.

  For the clothing sheet, a material such as a woven fabric or a urethane foam board having low water absorption is used. On the surface of this clothing sheet material, a negative ion ceramic powder mixed with silicon ink for thick film printing is fixed so as to rise from the surface to a thickness of 0.1 mm to 0.3 mm. ing. The negative ion generation film is preferably configured such that a plurality of small piece films are spaced apart from each other and arranged in a predetermined range. In addition, since the negative ion generating film is raised from the surface of the clothing sheet material, the clothing sheet is formed facing the body skin such as underwear to prevent friction with the body skin. It is desirable that the cloth is placed in a pocket and a cloth such as underwear is interposed between the negative ion generating film and the skin. Further, by forming the film thickness of the negative ion generating film of the clothing sheet from 0.1 mm to 0.3 mm, it becomes possible to generate 2000 / cc or more negative ions.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG.1 and FIG.2 has shown the example applied to the pad 1 with which the inner side of the brassiere shown in FIG. 5 is attached as 1st Example of the sheet | seat for clothing concerning this invention. For the pad 1 as a clothing sheet, a material such as a woven fabric or a urethane foam board having low water absorption is used. A urethane foam board is desirable for producing a sense of volume and elasticity. Note that the urethane foam board may be surrounded by a cloth that is soft to the touch. In addition, the shape of the pad 1 is formed in a shape like a hemispherical cup or a deformed elliptical futon like a known pad.

  A negative ion generation film 2 is formed on almost the entire surface on one side of the pad 1. In the case of a cup-shaped pad, the concave inner surface is almost the entire surface. The negative ion generation film 2 has negative ion ceramic powder mixed in silicon ink for thick film printing, and is raised from the surface of the pad 1 with a film thickness t of 0.1 mm to 0.3 mm as shown in FIG. It is made to adhere. Here, the material having low water absorption refers to a material in which the negative ion generation film 2 is immersed in the vicinity of one surface of the material and does not soak deeply inward.

  The negative ion generation film 2 is configured by arranging a large number of small piece films 2a formed in a hexagonal shape in a predetermined range in a state of being separated from each other. As for the dimensions of these small piece films 2a, the length of the opposing sides is set to about 3 mm to 15 mm. The dimension for separating the small pieces 2a is set to about 0.5 mm to 10 mm. When the size of the small piece film 2a is 3 mm or less, the amount of radiation of negative ions is small and a predetermined effect cannot be obtained. When the size is 15 mm or more, the amount of radiation is large, but the surface is covered with the small piece film 2a. In addition, the touch may be worsened, and sweat may adhere to the small piece film 2a and may not be released. On the other hand, when the separation dimension of the small piece film 2a is 0.5 mm or less, the area for discharging sweat is reduced and the discharge efficiency is deteriorated. When the separated size is 10 mm or more, the small piece film 2a does not exist in this portion. The amount of negative ions emitted becomes smaller.

  Next, a method for forming the negative ion generation film 2 will be described. First, a negative ion ceramic powder (Eco-Holilac Co., Ltd.) is mixed with silicon ink for thick film printing (Tanaka Chemical Co., Ltd.) so as to be evenly dispersed, and stirred to create gel-like screen printing ink 3. . The ratio between the silicon ink for thick film printing and the negative ion ceramic powder is preferably about 50%. In the screen printing ink 3, a color pigment may be mixed if necessary, and other inevitable materials are mixed. As shown in FIG. 4, the screen printing ink 3 is printed and applied to one side of the pad 1 by a screen printing method. That is, the screen 4 is formed with an opening 4a having the same shape as the above-described small piece film 2a arranged in a large number, and a mask portion 4b adjacent to these openings 4a. Further, the thickness of the screen 4 is set to 0.1 mm to 0.3 mm which is substantially the same as that of the negative ion generation film 2. In consideration of the shrinkage after solidification, it is desirable that the thickness of the screen 4 is slightly larger than that of the negative ion generation film 2.

  After the screen 4 is placed on the surface of the pad 1, the screen printing ink 3 is applied to the pad 1 through the opening 4 a by moving the squeegee 5. As a result, the screen printing ink 3 has a small film 2a formed on the surface of the pad 1 as shown in FIG. At this time, since the water absorption of the material of the pad 1 is low, the small piece film 2a is adhered by adhering to the surface. Then, the negative ion generating film 2 having a thickness of 0.1 mm to 0.3 mm is formed by solidifying the screen printing ink 3 in an environment of about 80 degrees Celsius.

  Negative ions are emitted from the negative ion generation film 2 formed in this way. The amount of negative ions is at least 2000 NS / cc or more when measured in an environment where the temperature is 20 degrees Celsius and the humidity is 30% to 50%. As a result of the actual measurement, some of them reached 5061 NS / cc. As described above, the reason why negative ions are generated at 2000 NS / cc or more is that the negative ion ceramic powder itself generates negative ions, and also negative ions from the silicon ink for thick film printing used for the screen printing ink 3. In addition, by setting the film thickness of the negative ion generation film 2 from 0.1 mm to 0.3 mm, the volume of the negative ion generation film 2 is increased, and the negative ion generation film 2 is raised from the surface of the pad 1. Therefore, it is conceivable that the negative ion generation film 2 emits directly. As a measuring device for the amount of negative ions generated, ION TESTER manufactured by Eco-Holilac Co. was used.

  FIG. 5 shows an example in which the above-described pad 1 is attached to a brassiere 6 as an undergarment. The configuration of the brassiere 6 is well known, and only the configuration related to the present invention will be described, and the other configuration will be omitted. In the brassiere 6 shown in FIG. 5, a pad storing pocket 6c is provided on the inner surface side of the pair of cup portions 6b provided in the base portion 6a. The pocket 6c is made of a stretchable fabric such as a stretchable knitted fabric or a warp knitted fabric. An opening 6d is formed above the pocket 6c.

  Then, the pad 1 described above is mounted in the pocket 6 c of the brassiere 6. At this time, the negative ion generating film 2 formed on the pad 1 faces the fabric side of the pocket 6c as shown in FIG. Accordingly, the negative ion generating film 2 faces the human skin. At this time, since the negative ion generating film 2 raised from the pad 1 is covered with the cloth of the pocket 6c, the negative ion generating film 2 does not directly contact the skin. Thus, even if the cloth of the pocket 6c is interposed on the surface of the negative ion generating film 2, the amount of negative ions generated on the outer surface side of the cloth of the pocket 6c is at least 2000 NS / cc.

  FIG. 7 shows another embodiment of the present invention, in which a negative ion generating film is directly formed on the inner surface of an undergarment 7 such as a T-shirt as a clothing sheet. In this example, negative ion generating films are formed at two locations, a location corresponding to the chest of the underwear 7 and a location corresponding to the abdomen. First, the negative ion generation films 21 formed on the left and right sides corresponding to the chest of the underwear 7 are formed in a triple circle. Further, the negative ion generation film 22 formed in the abdomen is configured by arranging a plurality of hexagonal pieces of small piece films 22a in a predetermined range in a state of being separated from each other, like the pad 1 described above. . As with the negative ion generation film 2 formed on the pad 1, the negative ion generation films 21 and 22 are solidified in an environment of about 80 degrees Celsius after the screen printing ink 3 is printed by the screen printing method. As a result, a negative ion generating film having a thickness of 0.1 mm to 0.3 mm is formed. Also in this example, the negative ion generation amount is at least 2000 NS / cc or more.

  Although the present invention has been specifically described above based on the embodiments, it is needless to say that the present invention is not limited to the above embodiments and can be variously modified without departing from the gist thereof. In the above-described embodiments, the bra and the T-shirt are illustrated and described as the underwear, but these shapes and configurations can be appropriately changed. Further, the position and size of the negative ion generation film can be changed as appropriate. Furthermore, as an undergarment, it is applicable to trousers, socks, shorts, etc. In this case, the negative ion generating film can be provided at an appropriate position and size.

  The present invention is applicable to underwear such as a brassiere, a T-shirt, or pants.

It is a top view which shows the example applied to the putt as a sheet | seat for clothes as an Example in connection with this invention. It is sectional drawing of the pad shown in FIG. It is an expanded sectional view of the pad shown in FIG. It is explanatory drawing which shows the state which prints the negative ion generation film | membrane by the screen printing method on the surface of the sheet | seat for clothes. It is a front view which shows the state which mounted | wore the brassiere pad shown in FIG. It is a partial expanded sectional view which shows the state which mounted | wore the brassiere shown in FIG. It is a front view which shows the example which formed the negative ion generation film | membrane in the T-shirt as a clothing sheet as another Example in connection with this invention.

Explanation of symbols

1 Pat (clothing sheet)
2 Negative ion generation film 2a Small piece film 6 Bra 7 Underwear

Claims (4)

  It is a clothing sheet such as a woven fabric or urethane foam board with low water absorption, and a negative ion generating film in which negative ion ceramic powder is mixed with silicon ink for thick film printing is applied to the surface of the clothing sheet material. A clothing sheet characterized by being fixed so as to protrude with a film thickness of 0.1 mm to 0.3 mm.   The clothing sheet according to claim 1, wherein the negative ion generating film is configured by arranging a plurality of small piece films apart from each other and arranging them in a predetermined range.   The clothing sheet is provided in a pocket formed facing the skin of a body such as underwear, and a cloth such as underwear is interposed between the negative ion generating film and the skin of the body. The clothing sheet according to any one of the above.   The clothing sheet according to claim 1, wherein the negative ion generating film generates 2000 / cc or more negative ions.

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